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In-vitro method for screening accessible biological markers in pathological tissuesIn-vitro method for screening accessible biological markers in pathological tissues description/claimsThe Patent Description & Claims data below is from USPTO Patent Application 20090163414, In-vitro method for screening accessible biological markers in pathological tissues. Brief Patent Description - Full Patent Description - Patent Application Claims
The present invention refers to an in-vitro method for screening specific disease biological markers accessible from the extra cellular space in pathologic tissues. The discovery of biological markers clinically suited for the accurate detection and selective treatment of diseases represents a major medical challenge. Targeting pathologic tissues without affecting their normal counterparts is one of the most promising approaches for improving treatment efficiency and safety (Wu, A. M. & Senter, P. D. Arming antibodies: prospects and challenges for immunoconjugates. Nat Biotechnol 23, 1137-1146 (2005); Adams, G. P. & Weiner, L. M. Monoclonal antibody therapy of cancer Nat Biotechnol 23, 1147-1157 (2005); Carter, P. Improving the efficacy of antibody-based cancer therapies. Nat Rev Cancer 1, 118-129 (2001)). Indisputably, such advances would represent a breakthrough for the therapy of cancer and other diseases. Hence, the identification of valid biological markers including proteins specifically expressed in diseased tissues, has become of utmost importance (Hortobagyi, G. N. Opportunities and challenges in the development of targeted therapies. Semin Oncol 31, 21-27 (2004); Neri, D. & Bicknell, R. Tumour vascular targeting. Nat Rev Cancer 5, 436-446 (2005)). Yet, even the most recent target discovery strategies based on state-of-the-art, high-throughput technologies have not addressed the limitation, in human tissues, of antigen accessibility to suitable high-affinity ligands such as human monoclonal antibodies bound to bioactive molecules (Adams, G. P. & Weiner, L. M. Monoclonal antibody therapy of cancer. Nat Biotechnol 23, 1147-1157 (2005); Neri, D. & Bicknell, R. Tumour vascular targeting. Nat Rev Cancer 5, 436-446 (2005). The identification of biological markers unique to specific pathologic processes would be most valuable for the accurate detection (e.g. by imaging studies) and selective therapy of diseases including cancer. For instance, patients suffering from cancer would certainly benefit from such developments. Indeed, chemotherapeutic agents, usually designed to take advantage of tumor cell characteristics such as high proliferation rates, unfortunately also target normal cycling cells including hematopoietic progenitors. The targeted delivery of these drugs and other bioactive molecules (e.g. radioisotopes, cytokines) to the tumor microenvironment (e.g. proteins specifically expressed in the stromal or vascular compartment of the tumor) by means of binding molecules such as recombinant human antibodies, would represent a considerable therapeutic improvement. This selective strategy would increase the amount of drugs reaching the tumor with little or no toxicity to the host\'s healthy tissues. The recent development of high-throughput proteomic technologies such as mass spectrometry have facilitated the rapid and accurate identification of small, but complex biological sample mixtures, overcoming many limitations of two-dimensional gel electrophoresis for proteome analysis (Peng, J. & Gygi, S. P. Proteomics: the move to mixtures. J Mass Spectrom 36, 1083-91 (2001)) and making target identification easier than ever. The recent development of this high-throughput proteomic technology holds great promise for speeding up the discovery of novel targets, notably in cancer research. For example, gel-free shotgun tandem mass spectrometry has been recently used to compare global protein expression profiles in human mammary epithelial normal and cancer cell lines (Sandhu, C. et al., Global protein shotgun expression profiling of proliferating mcf-7 breast cancer cells. J Proteome Res 4, 674-89 (2005)). Unfortunately, a significant pitfall associated with such an approach is that it provides no clue as to whether proteins of interest are accessible to suitable high-affinity ligands, such as systemically delivered monoclonal antibodies, in human tissues. Indeed, specific, yet poorly accessible proteins expressed in pathologic tissues are expected to be of little value for the development of antibody-based anti-cancer therapies. Strategies that would unveil disease biological markers not only specifically expressed in pathologic tissues but also accessible from the extracellular fluid would help overcome this limitation. Further, methods are known allowing protein labelling either by in vivo terminal perfusion or by ex vivo perfusion of human pathologic organs. However, the perfusion technique is restricted to experimental animals (e.g. rodents) or surgically resected organs vascularized by a catheterizable artery (e.g. kidney), which excludes many types of pathologic tissues from investigation, namely those which can not be perfused. The object of the present invention therefore was to provide a new, simple, quick and efficient method to identify, in human tissues originating from biopsies and non-perfusable organs (e.g. cancer lesions present in mastectomy or radical prostatectomy specimens), specific disease biological markers accessible from the extracellular space. The object is solved by an in vitro method for screening specific disease biological markers which are accessible from the extra cellular space in pathologic tissues for high-affinity ligands comprising the steps of:
It is understood that the in the step of immersing a native pathologic tissue sample in a solution containing a labelling reagent for labelling proteins, only accessible proteins are labelled by the labelling reagent; while non-accessible proteins are not or essentially not labelled. In a preferred embodiment of the method it is judged that said labelled protein(s) is/are accessible for high-affinity ligands from the extra cellular space in the native tissue, most preferred is/are accessible for high-affinity ligands from the extra cellular space in vivo. The present invention therefore provides a new chemical proteomic method for the reliable identification of target proteins from diseased tissues, which in vivo are accessible from the extra cellular fluid and thus from the bloodstream. By applying this procedure, for example, to small, surgically obtained samples of normal and cancerous human breast tissues, a series of accessible proteins selectively expressed in breast cancer are identified. Some of these breast cancer-associated antigens correspond to extracellular proteins including extra cellular matrix and secreted proteins, and appear to be interesting targets for antibody-based anti-cancer treatments. This powerful technology can theoretically be applied to virtually any tissue and pathologic condition and may become the basis of custom-made target therapies. According to the present invention at least the pathologic tissue sample is native until the immersion step, preferably the normal tissue sample is also native until the immersion step. As used herein the term “native tissue sample” means that the tissue sample is not denatured and not fixed. As used herein the term “native tissue” comprises native tissue samples as well as the corresponding tissues in vivo. According to the present invention biological markers for pathologic diseases which are not accessible from the extracellular space in a native tissue sample (and also are not accessible from the extracellular space in vivo) will not or will essentially not be labelled. An important feature of the present invention is that the native tissue samples are immersed in a solution comprising a reactive compound which is marking and labelling proteins which are accessible from the extra cellular space, by simple diffusion through the native tissue. This means that once the tissue sample is immersed into the solution the reactive compound comprised therein will diffuse through the extracellular space of the native tissue sample and thereby brought into contact with accessible proteins and react with them. The labelled proteins can be easily purified and analysed and identified by proteomic methods. Identification of the labelled proteins is, for example, achieved by liquid chromatography and subsequent mass spectrometry. One major advantage is that the present method does not depend on the possibility that the (native) tissue samples used can be perfused or not. Therefore, according to the method of the present invention any tissue can be investigated and explored in order to seek for accessible biological markers. Continue reading about In-vitro method for screening accessible biological markers in pathological tissues... Full patent description for In-vitro method for screening accessible biological markers in pathological tissues Brief Patent Description - Full Patent Description - Patent Application Claims Click on the above for other options relating to this In-vitro method for screening accessible biological markers in pathological tissues patent application. 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